P3D.in is a new beta service (currently free, prolly will change) for rendering 3D models in the web browser, no flash or plugins required. I guess it works via HTML5?

They only take .obj files at the moment (which you can export to from Blender). It’d be much much more useful if they automatically imported STL files, and all of Thingiverse, among other sites. I’ve logged a bug report and feature request along these lines.

Here’s a yoda head converted to .obj and imported and hosted by P3D in their demo iframe. pretty cool. (NOTE: I guess it needs a while to load in the browser, apparently. So if it’s not showing up yet in your browser, give it a minute).

After reviewing the projects here and those proposed by NextFab members it sounds like we will be doing some form of the Chess boards, the snowflakes, some robotics, and a bunch of laser-engraving. But what if you don’t like those? Come by anyway and you can rally troops for helping you on your own project(s).

This Hack-tacular event will be at NextFabStudio and will get us free access for the night to some of their most awesome tools, such as: CNC plasma, CNC embroidery, e-textiles, electronics, 3D printers, shop bots… Check out all their equipment.

There will be food too.

So Awesome.

Now we need to brainstorm project ideas, let’s start things off in this email thread. Please reply-all so the proper NextFab people (cc’ed above) can tell us if this is possible and, if so, the logistics for how to make it happen.

A double-set of Hive76 chess pieces and boards. This will make use of their lasercutters, embroidery equipment, and possibly the electronics and 3D printers too. I really want a double-set (4 different colors) so we can play Bughouse Chess (You will love this game)

If we get really creative maybe some magnetics and electronics could be enabled as well.

There were so many wonderful things it was hard for me to pick a favorite. That is, until I hit the Ultimaker Booth. Ultimaker is another open source 3D printer offshoot of the RepRap Project. Erik de Brijn, Martijn Elserman, and the rest of their team have been hard at work perfecting v1 of the Ultimaker (and now Ultimaker+). The quality of this machine continues to amaze me (I’ve seen a previous beta version in person at Botacon). New this year, when mixed up with the newest firmware Marlin (which was recently ported to 3D FDM printers and is based on GRBL, the same firmware codebase picked to run Lasersaur), the Ultimaker is able to get insanely high resolution prints. You can get the Marlin firmware for RAMPS and RepRap from HERE on Github.

Erik gave me one of the high res Yoda prints (Thanks Erik!) which I put under the microscope last week. You can see with the scale bar… we have 162 pixels = 1 mm. The average layer height in that pic is around 12 pixels, or 0.074 mm (That is 74 microns). And that orangey low res looking thing on the left? That’s not a print… that’s my finger. Click the image to see in higher detail!

At Hive, we spent part of this summer making a bunch of cast-resin 3D printer parts. So instead of printing these parts up as we’d normally do, we made molds out of silicone mold material, and then filled these molds with resin whenever we wanted a new set.

The materials for this are cheap to acquire and easy to handle – some kind of resin (e.g. Smooth-On 326), and also material for making the silicone masters into which the resin is poured. We used Oomoo, but there are other materials out there. Other than that, you need standard stuff: mixing containers and mixers, napkins, etc.

Why would we do this? Well, in theory it’s easy and cheap if you can do it right, or if you aren’t too hung up on quality. And the parts end up looking extremely cool, especially if you use some tinting in your resin mixture. We created a couple parts sets with this tinting, which looked amazing.

However, we did run into some problems. For example, if you don’t have very elite molding skillz and materialz, you end up having to finish all the parts manually – this means deflashing, and also drilling the dozens of holes that your printer’s rods, bolts, and screws will go into. This takes a lot of time, and is very tough to do correctly. You also run the risk of breaking the parts when you drill them, which means… more molding. There are lots of other things to deal with too – what do you do if one of your master molds breaks? How do you acquire high-quality original parts to base your molds on? Etc.

ONLY ONE WEEK LEFT TO SIGN-UP!

In collaboration with NextFabStudio, we are offering a state-of-the-art and upgraded RepRap printer kit and accompanying 3-day Build Workshop from August 26th-28th. The class cost is $998 ($1,200 for non-members) and includes EVERYTHING you need to get up and running, and more importantly, a fully calibrated and fine-tuned robot.

Check out the time-lapse video below from our first class in Baltimore where we got 10 printers up and running in 3 days.

We’ll help you and a friend or two to build your very own open-source RepRap 3D printer, which has more than 4x(!!) the build volume of it’s closest competitor, the MakerBot Thing-o-Matic. Note that you will save $202 off the class if you’re a member of Hive76 or NextFab Studio. Total class cost for members is only $998. This is a crazy cheap deal! You can’t even buy a MakerBot for that price, let alone learn how to assemble it and fine tune it correctly in just a weekend.

There’s lots of additional bells and whistles on this bot that you won’t find anywhere else: custom machined aluminum motor couplers, linear bearings, the latest RAMPS electronics, and much more!

A few months ago Enrique Muyshondt (President of DesktopFab, aka Endeavour on IRC) gave us a set of Sells Mendel parts that he had cast for our work on various research projects at UPenn and here at Hive76. We slowly assembled it and got it running, and thanks to this past weekend’s RepRap World Tour stop in Baltimore, we have it running! In addition to 3D printing like a champ, we’re now using it to work on the firmware and customize printing scripts for tissue engineering research. We are grateful for the support!

The parts are cold cast bronze, this means Enrique painted several layers of bronze powder into his molds and then cast them with resin. What came out were the brown parts you see in the pictures and video below.

This 3D printer rocks. The RepRap 3D printing project still has a lot of rough edges, but that’s why we love it. We’ll have BronzeBot on exhibit at the next RepRapWorldTour in Baltimore, and then back in Philly in August to do it again.